JP2002186056A - Measurement data collection system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a measurement data collection system that can transmit measured data even when a fault takes place in a repeater. SOLUTION: Repeaters 4-8 and measurement devices 9-12 are set to transmit data to higher hierarchical levels at all times. Notice information incorporates the hierarchical levels (I-III) and the repeaters 4-8 transmit the information at any time for a prescribed period. The repeaters 4-8 and the measurement devices 9-12 store the newest repeater hierarchical level and the reception sensitivity to their internal memories. When the measurement device 10 transmits the measured data, the measurement device 10 transmits the data to the repeater 5 or 4 belonging to a hierarchical level higher than the hierarchical level II to which the measurement device 10 belongs. Furthermore, the repeater 5 or 4 transmits the measurement data to a collection center 1 via a public base station 3 and a PHS public network 2 through the shortest route.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a measurement data collection system, and more particularly to a method for automatically collecting measurement data (meter reading data) of meters such as electricity, gas, and water in each household using a simple portable telephone (PHS). Related to a measurement data collection system to collect data.

[0002]

2. Description of the Related Art Conventionally, as an example of a measurement data collection system, there is known an automatic meter reading system in which a PHS terminal is attached to a meter such as a gas meter to perform automatic meter reading (Japanese Patent Application Laid-Open Nos. Hei 10-178492 and Hei 11). -17
821, JP-A-11-41365).

In this conventional measurement data collection system (automatic meter reading system), when a transmission destination of measurement data is determined, a specific transmission destination is set in advance or a PHS
The center and the PHS terminal are connected via the private base station,
In a system connected to the meter, the PHS terminal
When the HS terminal is installed, the PHS terminal calls a plurality of PHS private base stations, and the P signal having the highest electric field strength of the response signal is called.
A method of selecting an HS self-service base station and transmitting measurement data is known.

[0004]

However, in the above-mentioned conventional measurement data collection system, when a plurality of relay devices (self-owned base stations) for transferring measurement data to a public base station are connected, the following is required. There are issues.

A first problem is that when a connection destination of a meter reading device is fixedly designated, measurement data cannot be transmitted if any of a plurality of relay devices (own base stations) has a failure. It is.

A second problem is that even when a received electric field is measured and connected to an optimal relay device (own base station), measurement data cannot always be transmitted via the shortest route. The reason is that the relay device (self-owned base station) close to the public base station is not always selected because the electric field strength is the only factor for determining the connection destination.

[0007] The present invention has been made in view of the above points,
It is an object of the present invention to provide a measurement data collection system capable of transmitting measurement data even when a failure occurs in a relay device.

Another object of the present invention is to provide a measurement data collection system capable of constructing an optimal configuration without performing a detailed layout design when configuring the system.

[0009]

In order to achieve the above object, the present invention provides a method of transmitting measurement data obtained by measuring with a measuring device to a public network via one or more relay devices, A measurement data collection system for directly transmitting data to a public network and transmitting measurement data received by the public network to a collection center, comprising one or more measuring devices and one or more devices for directly transmitting measurement data to a public network Are arranged as a measuring device and a relay device at the highest hierarchical level.
One or more measurement devices and one or more relay devices that transmit measurement data to the relay device of the higher hierarchical level,
Repeatedly arranging as a measurement device and a relay device at a hierarchy level one level lower than the transmission destination hierarchy level, the measurement data obtained by measuring with a measurement device at a hierarchy level lower than the highest hierarchy level, The relay device that selects and transmits the relay device of the hierarchical level, the relay device that receives the measurement data transmits the relay device of the upper hierarchical level or directly to the public network, thereby causing the public network to receive the measurement data, The measurement data is transmitted to the collection center via the public network.

According to the present invention, it is possible to arrange the measuring device and the relay device in a hierarchical configuration, transmit the measurement data from the measuring device to the public network via the higher-order relay device, and further transmit the measurement data to the collection center. .

Further, in order to achieve the above object, the present invention provides a configuration in which the above-mentioned relay apparatus has a first transmitting means for transmitting information of its own hierarchical level in broadcast information and transmitting it at a constant period, Extraction means for extracting the hierarchical level information from the received broadcast information and extracting the received electric field strength, and extracting the measuring apparatus and the relay apparatus with the hierarchical level information and the received electric field strength extracted by the extracting means as a key. A rearrangement storage unit that rearranges the received broadcast information and stores the information of the relay device that is the source of the received broadcast information, and the received measurement data or the measurement data to be transmitted that is stored in the rearrangement storage unit and has the highest hierarchical level. Second transmission means for selecting and transmitting a relay device is provided.

Further, in order to achieve the above object, the present invention provides the above-mentioned relay apparatus, wherein the hierarchical level extracted from the hierarchical level information extracted by the extracting means and the received electric field strength is the highest hierarchical level in the received electric field strength not less than a specified level. A configuration having a hierarchy level setting means for automatically setting the hierarchy level one level lower than the own hierarchy level, and including the information of the own hierarchy level in the broadcast information and transmitting it by the first transmission means at a fixed period. It was done.

According to the present invention, when a measuring device or a relay device is installed, the radio wave state of broadcast information transmitted from surrounding measuring devices and the relay device is checked, and hierarchical level information and received electric field strength are extracted and extracted. It automatically sets the layer level one level lower than the highest layer level with the received field strength above the specified level to its own layer level, so it automatically sets its own layer level and the destination layer level can do.

Further, in order to achieve the above object, the present invention provides a method in which measurement data obtained by measuring with a measuring device at a hierarchical level lower than the highest hierarchical level is transferred to a relay device selected at a higher hierarchical level. When transmitting, determining means for determining whether transmission to the selected relay device has been performed normally,
When the determination unit determines that transmission to the selected relay device is not possible, the third transmission unit that selects the next-rank relay device stored in the rearrangement storage unit and transmits the measurement data includes: The device and the relay device are provided respectively.

According to the present invention, when the relay device selected as the transmission destination of the measurement data cannot be transmitted due to a failure or the like,
The measurement data can be transmitted by selecting the next-ranking relay device stored in the rearrangement storage unit.

Here, the third transmitting means may be a relay device selected as a transmission destination selected by the second transmission means as a transmission destination selected as a transmission destination stored in the rearrangement storage means. A relay device at the same hierarchical level or at the same hierarchical level as itself may be selected as the transmission destination.

[0017]

Next, embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a system configuration diagram of an embodiment of a measurement data collection system according to the present invention.
As shown in FIG. 1, the present embodiment is a system for transmitting measurement data (meter-reading data) to a collection center 1 using a public base station 3 and a PHS public network 2.
8, measuring devices 9-12.

Further, the measurement data collection system of this embodiment constitutes a hierarchical measurement data system having the public base station 3 at the top, and each device always transfers data to a higher hierarchical level (I to III). Set rules to send. The hierarchy levels (I to III) are incorporated in broadcast information including identification information unique to the relay device, and
-8 are transmitted at regular intervals.

The highest hierarchical level I is a group of devices for directly transmitting data to the public base station 3, and here, it is composed of relay devices 4 and 5 and a measuring device 9. The middle hierarchical level II is the relay device 4 of the highest hierarchical level I.
And 5, a group of devices for transmitting data to one of the relay devices 6 and 7, and a measurement device 10. The lowest hierarchical level III is a group of devices for transmitting data to one of the relay devices 6 and 7 of the middle hierarchical level II. In this case, the relay device 8 and the measuring devices 11 and 12 are used.
It is composed of In addition, the measurement devices 9 to 12 measure the measurement data and transmit the measurement data to a higher-level relay device using a public or privately owned protocol.

The measuring devices 9 to 12 have the same configuration, respectively.
For example, as shown in FIG. 2, it is constituted by a data transfer device 20 using wireless communication and a meter reading meter 30. The data transfer device 20 includes a wireless unit 22, a hierarchical level extracting unit 2,
3. a transfer level and transfer destination determining unit 21 including a reception level extracting unit 24, an information storage memory 25, and a control unit 26;
It comprises a meter reading interface unit 27 for interfacing with the meter reading meter 30, and is realized by a PHS terminal. Meter reading meter interface 2
7 is connected to the control unit 26 and the wireless unit 22.

The meter 30 is provided for measuring electricity, gas,
It is a meter such as water supply, and supplies measurement data (metering amount data) of the meter to the transfer level and transfer destination determining unit 21 through the meter reading meter interface unit 27.

The relay devices 4 to 8 have a configuration in which the meter reading meter 30 and the meter reading meter interface unit 27 are removed from the configuration of the measuring device shown in FIG.
1), operates as a private base station for the measuring device side, and operates as a public or private PHS terminal for the public base station 3 or a higher-level relay device. Further, a hierarchy level number is incorporated in the broadcast information, and the broadcast information is transmitted at regular intervals.

Here, for example, when the measuring apparatus 10 of FIG. 1 wants to transmit the measurement data to the collection center 1, a hierarchical level higher than the hierarchical level II to which the measuring apparatus 10 belongs is referred to.
Data transmission is performed to the relay device 5 belonging to I.
For the relay device 8 belonging to the hierarchical level III lower than the hierarchical level II to which the measuring device 10 belongs, data transmission is not performed unless the relay device is not found in the higher hierarchical level. I do. In this way, measurement data can be reliably transmitted to the collection center 1 via the public base station 3 and the PHS public network 2 via the shortest route.

Next, the operation when the measuring device 10 of FIG. 1 transmits the measurement data to the collection center 1 will be described with reference to the system configuration diagram of FIG. 1, the configuration diagram of the measuring device of FIG. 2, FIGS. 3 and 4.
This will be described in further detail with reference to the flowchart of FIG.
When the measuring device 10 is activated (Step S1 in FIG. 3),
The broadcast information data of the relay devices 4 to 8 operating in the vicinity are received (step S2 in FIG. 3). The broadcast information data includes hierarchical level data to which the relay device transmitting the broadcast information data belongs.

The measuring device 10 is connected to the radio unit 2 via an antenna.
The reception electric field strength (reception sensitivity) of the broadcast information data received from the surrounding relay devices 4 to 8 received by the reception level extraction unit 2
4 (step S3 in FIG. 3), and the hierarchy level data included in the received broadcast information data is extracted by the hierarchy level extraction unit 23 (step S4 in FIG. 3).

Subsequently, the measuring apparatus 10 stores the reception sensitivity extracted by the reception level extraction unit 24 and the hierarchy level extracted by the hierarchy level extraction unit 23 in the information storage memory 25 (step S5 in FIG. 3). , The information storage memory 25 under the control of the control unit 26 using the reception sensitivity and the hierarchy level as keys.
The above is rearranged in the order of the hierarchy level (step S6 in FIG. 3). The above operation is repeatedly performed during the operation of the measuring apparatus 10, and the latest relay apparatus hierarchical level data and reception sensitivity (reception electric field strength) are always stored in the information storage memory 25 together with the information of the transmission apparatus of the broadcast information data. Is stored in association with.

Next, when the transmission trigger of the collected measurement data is input to the control unit 26 (step S11 in FIG. 4), the measurement unit 10 transmits the relay device stored in the information storage memory 25 to the relay device. Referring to the hierarchy level data and the reception sensitivity (reception electric field strength) (Step S12 in FIG. 4),
It has the highest hierarchical level among them, selects the most suitable relay device with a specified electric field strength or more, controls the radio unit 22,
The measurement data (meter reading amount data) measured by the meter reading meter 30 and input through the meter reading meter interface unit 27 is transmitted to the selected relay device (step S13 in FIG. 4).

At this time, the selected relay device is, for example, the relay device 5, and it is determined whether the transmission of the measurement data to the relay device 5 can be performed normally (step S in FIG. 4).
14). Here, when data transmission cannot be performed normally due to failure or congestion of the selected relay device 5, the control unit 2
6 is an example of the relay device hierarchy level data and reception sensitivity (reception electric field strength) stored in the information storage memory 25.
A relay device having a hierarchical level next to that of the previously selected relay device 5 and having a specified electric field strength or more (for example,
The relay device 4) is selected, and the wireless unit 22 is controlled to transmit the measurement data from the meter reader 30 to the selected relay device (for example, the relay device 4) again (step S1 in FIG. 4).
5).

In the same manner, the above operation is repeated until a repeater that is equal to or higher than the specified electric field strength and is communicable is found in order from the highest hierarchical level, and a repeater that can communicate is found. Sometimes, the measurement data is transmitted to the relay device (step S1 in FIG. 4).
6).

Therefore, the measuring device 10 has the highest receiving field intensity when the receiving field intensity from the relay device 4 or 5 at the hierarchical level I higher than the hierarchical level II to which the measuring device 10 belongs is equal to or higher than the specified value. The measurement data is transmitted to the relay device (referred to as 5). If the relay device 5 fails and cannot communicate due to congestion, the relay devices 6, 7, and 8 are transmitted.
Is selected, and the relay device 4 is selected to transmit the measurement data.

Since the relay device is configured to transmit the received measurement data directly to the relay device at the higher hierarchical level or the public base station 3, the measurement data transmitted from the measurement device 10 is 4 or 5 and is received by the public base station 3 and further transmitted from the public base station 3 to P
The data is transmitted to the collection center 1 via the HS public network 2 and received there.

As described above, according to the present embodiment,
The measurement data can be reliably transmitted to the collection center 1 via the shortest route via the relay device 4 or 5 at the hierarchical level I higher than the hierarchical level II to which the measuring device 10 belongs.

Similarly, the measurement data measured by the measurement device 9 is directly transmitted to the public base station 3, and the measurement data measured by the measurement devices 11 and 12 is transmitted to the relay device 6 or 7 and the relay device 4 or The measurement data transmitted to the public base station 3 via the network 5 and received by the public base station 3 is further received and collected by the collection center 1 via the PHS public network 2.

The measuring devices 9 to 12 and the relay devices 4 to 8
If the relay device / public base station 3 higher than itself cannot be found, the data is transferred to the relay device of the same hierarchy and the data is transmitted to the relay device / public base station 3 therefrom. Even the relay device at the transfer destination
Since it is conceivable that the public base station 3 cannot be found, an algorithm is set so that the data is not sent back to the relay device immediately before the data transmission source. Note that data communication between the measurement devices is not performed.

Next, the operation when the measuring device is installed will be described. First, the relay devices 4 and 5 for directly transmitting data to the public base station 3 and the measuring device 9 are set to the highest hierarchical level I. Next, for example, when the measuring device 10 is installed, the radio waves of the relay devices 4 and 5 that are already installed and operated around the measuring device 10 are received, and the specified electric field intensity is included in the received notification information. As described above, the highest hierarchical level is searched, and its own hierarchical level is set to the hierarchical level II one level lower than the highest hierarchical level I.

Since this operation is performed automatically, by constructing the system in this way, it is possible to easily add / change devices without performing detailed configuration design.

[0037]

As described above, according to the present invention,
Since the measurement device and the relay device are arranged in a hierarchical structure, and the measurement data from the measurement device is transmitted to the collection center via the higher-order relay device and the public network, the measurement data is transmitted to the collection center via the shortest route. be able to.

According to the present invention, when the relay device selected as the transmission destination of the measurement data cannot be transmitted due to a failure or the like, the next-ranking relay device stored in the rearrangement storage means is selected and the measurement data is transmitted. Is transmitted, the measurement data can always be reliably transmitted to the collection center.

Further, according to the present invention, when the measuring device or the relay device is installed, the radio wave state of the broadcast information transmitted from the surrounding measuring device and the relay device is confirmed, and the hierarchical level information and the received electric field strength are determined. By extracting and automatically setting the hierarchy level one level lower than the highest hierarchy level with the received electric field strength higher than the extracted specification to the own hierarchy level, the hierarchy level of the own hierarchy and the transmission destination are automatically set. Since the setting is made, it is possible to easily add or change the relay device or the measuring device without performing a detailed layout design when constructing the system.

[Brief description of the drawings]

FIG. 1 is a system configuration diagram according to an embodiment of the present invention.

FIG. 2 is a block diagram of an embodiment of the measuring device in FIG.

FIG. 3 is a flowchart for explaining an example of an operation at the time of reception of the measuring device in FIG. 1;

FIG. 4 is a flowchart illustrating an example of an operation of the measuring device in FIG. 1 at the time of transmission.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Collection center 2 PHS public network 3 Public base station 4, 5, 6, 7, 8 Relay device 9, 10, 11, 12 Measurement device 20 Data transfer device 21 Transfer destination level and transfer destination determining unit 22 Radio unit 23 Hierarchical level Extraction unit 24 reception level extraction unit 25 information storage memory 26 control unit 27 meter reading meter interface unit 30 meter reading meter

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H04M 11/00 301 H04B 7/26 109M (72) Inventor Noriaki Endo 2-6-6 Shimohanazawa, Yonezawa City, Yamagata Prefecture No.80 Yonezawa NEC F-term (reference) 2F030 CC13 CE09 5K048 AA06 BA36 CA08 DA02 DA07 DB01 DC01 EA11 EB10 FB08 FC01 GA02 GC03 HA01 HA02 HA03 HA05 HA07 5K067 AA33 BB27 DD53 EE02 EE06 EE10 EE16 FF16 H1223 NN25 NN34 RR12 SS07 TT06 UU16

Claims (7)

[Claims] 1. Measurement data obtained by measurement by a measurement device is transmitted to a public network via one or more relay devices or directly transmitted to the public network and received by the public network. A measurement data collection system for transmitting the measurement data to a collection center, wherein one or two or more of the measurement devices and one or two or more of the relay devices that directly transmit the measurement data to the public network are at the highest level. One or two or more of the measurement devices and one or more of the relay devices that transmit the measurement data to a relay device of a higher hierarchy level are arranged as a level measurement device and a relay device. Repeatedly arranging as a measurement device and a relay device at a hierarchy level one level lower than the level, measurement data obtained by measuring with the measurement device at a hierarchy level lower than the highest hierarchy level The relay device at the higher hierarchical level is selected and transmitted, and the relay device receiving the measurement data is transmitted to the relay device at the upper hierarchical level or directly to the public network. A measurement data collection system, comprising: receiving data; and transmitting the measurement data to the collection center via the public network. 2. The relay device includes first transmission means for transmitting information of its own hierarchical level in broadcast information and transmitting the broadcast information at a fixed period, wherein the measuring device and the relay device are configured to receive the broadcast information from the received broadcast information. Extracting means for extracting the information of the hierarchical level and extracting the received electric field strength, and rearranging the information of the hierarchical level and the received electric field strength extracted by the extracting means in the order of the hierarchical level using as a key, the received A rearrangement storage unit that stores information of the relay device that is the source of the broadcast information, and a relay device with the highest hierarchical level stored in the rearrangement storage unit that receives the received measurement data or the measurement data to be transmitted. The measurement data collection system according to claim 1, further comprising a second transmission unit for transmitting. 3. The relay device, of the information of the hierarchical level extracted by the extracting means and the received electric field strength, assigns a hierarchical level one level lower than the highest hierarchical level in the received electric field strength not less than a specified value. 3. The measurement according to claim 2, further comprising a hierarchy level setting means for automatically setting the information on the hierarchy level of the information, and including the information of the own hierarchy level in the broadcast information and transmitting the information at a constant period by the first transmission means. Data collection system. 4. When transmitting the measurement data obtained by measurement by the measuring device at a hierarchical level lower than the highest hierarchical level to the relay device selected at a higher hierarchical level, Determining means for determining whether transmission to the relay device has been normally performed; and determining, when the determination means determines that transmission to the selected relay device is not possible, the next order stored in the rearrangement storage means. 3. The measurement data collection system according to claim 2, wherein a third transmission unit that selects one of the relay devices and transmits the measurement data is provided in each of the measurement device and the relay device. 4. 5. The relay device selected as a destination by the second transmission device as the next-rank relay device selected as a destination stored in the rearrangement storage device. 5. The measurement data collection system according to claim 4, wherein a relay device at the same hierarchical level as the relay device or at the same hierarchical level as the own device is selected as a transmission destination. 6. The measuring device comprises: a meter for obtaining the measurement data; and a PHS terminal for selecting and transmitting a destination of the measurement data.
The measurement data collection system according to any one of claims 1 to 5, comprising an S terminal. 7. The meter reading meter is a home electric meter,
The measurement data collection system according to claim 6, wherein the measurement data collection system is a gas meter or a water meter.